JPH09178316A - Refrigerator - Google Patents
RefrigeratorInfo
- Publication number
- JPH09178316A JPH09178316A JP7335356A JP33535695A JPH09178316A JP H09178316 A JPH09178316 A JP H09178316A JP 7335356 A JP7335356 A JP 7335356A JP 33535695 A JP33535695 A JP 33535695A JP H09178316 A JPH09178316 A JP H09178316A
- Authority
- JP
- Japan
- Prior art keywords
- ice
- storage box
- ice storage
- bottom plate
- receiving
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Production, Working, Storing, Or Distribution Of Ice (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、ブロック状の氷の
製造と、この氷の貯氷箱への落下とを自動的に反復する
ような、いわゆる自動製氷装置付きの冷蔵庫に係り、と
りわけ、貯氷箱内に効率的に氷を貯められるようにした
冷蔵庫に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a refrigerator with a so-called automatic ice making device, which automatically repeats the production of block-shaped ice and the dropping of the ice into an ice storage box, and more particularly relates to the ice storage. The present invention relates to a refrigerator capable of efficiently storing ice in a box.
【0002】[0002]
【従来の技術】図10に、従来の冷蔵庫の一例が示され
ている。図10において、冷蔵庫は冷蔵室100と、上
段1aと下段1bとを有する冷凍室1と、野菜室102
とを備えている。このような冷蔵庫において、冷蔵室1
00に対応する扉105を開き、冷凍室1の上段1a
(以下、冷凍室上段1aと言う)を引出した状態が、図
11に部分的に示されている。図11において、冷蔵室
100の下部には、その正面に向かって右側にチルド室
106が設けられ、同じく左側に給水タンク20を収納
するタンク棚108が設けられている。また、冷凍室上
段1aの同じく右側に冷凍トレー109が設けられ、左
側に貯氷箱2が設けられている。この貯氷箱2は、図1
2及び図13に示すように、矩形平面状をなす底板10
と、この底板10の周縁から上方へ延びる2対の対向側
壁11〜14とを有している。2. Description of the Related Art FIG. 10 shows an example of a conventional refrigerator. In FIG. 10, the refrigerator includes a refrigerator compartment 100, a freezer compartment 1 having an upper stage 1a and a lower stage 1b, and a vegetable compartment 102.
And In such a refrigerator, the refrigerator compartment 1
Open the door 105 corresponding to 00, the upper stage 1a of the freezer compartment 1
The state in which the freezer compartment upper stage 1a is pulled out is partially shown in FIG. 11, in the lower part of the refrigerating chamber 100, a chilled chamber 106 is provided on the right side when facing the front, and a tank shelf 108 for storing the water supply tank 20 is also provided on the left side. A freezing tray 109 is provided on the right side of the upper stage 1a of the freezer compartment, and an ice storage box 2 is provided on the left side. This ice storage box 2 is shown in FIG.
2 and FIG. 13, a bottom plate 10 having a rectangular planar shape
And two pairs of opposing side walls 11 to 14 extending upward from the peripheral edge of the bottom plate 10.
【0003】次に、図12に示すように、貯氷箱2の上
方に、複数のブロック状の氷の製造と、この氷の貯氷箱
2への落下とを自動的に反復するための自動製氷部3が
設けられている。この自動製氷部3は、上記貯水タンク
20と、この貯水タンク20から供給される水を貯め、
複数のブロック状の氷を製造するための製氷皿8(図1
3参照)と、この製氷皿8を反転させ氷を貯氷箱2に落
下させるための反転・離氷手段(図示せず)とを有して
いる(図14(a)参照)。また、図12及び図13に
示すように、貯氷箱2内において、製氷皿8の下方に貯
氷量検知レバー4が配設されている。この検知レバー4
は、貯氷箱2内に貯まった氷の上部に当接しその氷の上
部の高さが所定の高さに達した場合に自動製氷部3の作
動を一時停止させるためのものである。Next, as shown in FIG. 12, automatic ice making for automatically repeating the production of a plurality of blocks of ice above the ice storage box 2 and dropping the ice into the ice storage box 2. A section 3 is provided. The automatic ice making unit 3 stores the water storage tank 20 and water supplied from the water storage tank 20,
Ice tray 8 (FIG. 1) for producing a plurality of blocks of ice.
3)) and a reversing / clearing means (not shown) for reversing the ice tray 8 and dropping the ice into the ice storage box 2 (see FIG. 14 (a)). As shown in FIGS. 12 and 13, the ice storage amount detection lever 4 is disposed below the ice tray 8 in the ice storage box 2. This detection lever 4
Is for temporarily stopping the operation of the automatic ice making unit 3 when the ice stored in the ice storage box 2 comes into contact with the upper portion of the ice and the height of the upper portion of the ice reaches a predetermined height.
【0004】このような従来の冷蔵庫においては、図1
4(a)に示すように、自動製氷部3の製氷皿8から貯
氷箱2の底板10上に繰返し落下する複数のブロック状
の氷Kは、製氷皿8からの落下位置を中心に山状に積層
して行く。そして、図14(b)に示すように、積層し
た氷Kの山の山頂は、製氷皿8からの氷Kの落下位置に
略対応し、この氷Kの山の山頂付近の高さが所定の高さ
に達した場合、この山頂付近に当接する上記検知レバー
4の働きで、自動製氷部3の作動が停止される。In such a conventional refrigerator, as shown in FIG.
As shown in FIG. 4 (a), a plurality of block-shaped ice K repeatedly falling from the ice tray 8 of the automatic ice making unit 3 onto the bottom plate 10 of the ice storage box 2 has a mountain-like shape centered on the fall position from the ice tray 8. To stack. Then, as shown in FIG. 14B, the peaks of the stacked ice K mountains substantially correspond to the positions where the ice K drops from the ice tray 8, and the height near the peaks of the ice K mountains is predetermined. When the height of the ice-making unit 3 reaches the height of 1, the operation of the automatic ice making unit 3 is stopped by the action of the detection lever 4 that abuts near the peak.
【0005】[0005]
【発明が解決しようとする課題】このような従来の冷蔵
庫には、以下のような問題点がある。すなわち、上述し
たように、製氷皿8からの氷Kの落下位置に略対応する
氷Kの山の山頂付近の高さが所定の高さに達した場合、
貯氷箱2の側壁13,14付近にはまだ氷Kの貯まって
いない空間があるにもかかわらず、検知レバー4の働き
で自動製氷部3の作動が停止され、貯氷箱内にそれ以上
氷が貯まらなくなってしまう(図14(b)参照)。こ
のため、貯氷箱2の容量を有効に使うことができず、多
くの氷を効率よく貯めることができない。The conventional refrigerator as described above has the following problems. That is, as described above, when the height near the summit of the ice K mountain, which substantially corresponds to the position where the ice K falls from the ice tray 8, reaches a predetermined height,
Although there is a space near the side walls 13 and 14 of the ice storage box 2 in which ice K is not yet stored, the detection lever 4 acts to stop the operation of the automatic ice making unit 3 and further ice is stored in the ice storage box. It will not be stored (see FIG. 14 (b)). Therefore, the capacity of the ice storage box 2 cannot be used effectively, and a large amount of ice cannot be stored efficiently.
【0006】本発明はこのような点を考慮してなされた
ものであり、貯氷箱の容量を有効に使い、貯氷箱に多く
の氷を効率よく貯めることのできる冷蔵庫を提供するこ
と目的とする。The present invention has been made in consideration of the above points, and an object of the present invention is to provide a refrigerator capable of effectively using the capacity of the ice storage box and efficiently storing a large amount of ice in the ice storage box. .
【0007】[0007]
【課題を解決するための手段】第1の手段は、冷凍室
と、この冷凍室内に配設され、矩形平面状をなす底板
と、この底板の周縁から上方へ延びる2対の対向側壁と
を有する貯氷箱と、この貯氷箱の上方に配設され、ブロ
ック状の氷の製造と、この氷の前記貯氷箱への落下とを
自動的に反復するための自動製氷部と、前記貯氷箱の底
板上に配設され、前記貯氷箱内に落下した氷を受けるた
めの受氷面を有する受氷部材と、前記貯氷箱内に配設さ
れ、前記貯氷箱内に貯まった氷の上部に当接しその氷の
上部の高さが所定の高さに達した場合に、前記自動製氷
部の作動を停止させるための貯氷量検知体とを備えた冷
蔵庫であって、前記受氷部材は、その受氷面が前記貯氷
箱の底板の一側付近からこの底板の他側上方まで延びる
傾斜面をなすとともに前記貯氷箱の底板上に弾性的に支
持されていることを特徴とする。A first means is to provide a freezing chamber, a bottom plate having a rectangular planar shape, which is disposed in the freezing chamber, and two pairs of opposing side walls extending upward from the peripheral edge of the bottom plate. An ice storage box having, an automatic ice making section for arranging above the ice storage box, for automatically repeating the production of block-shaped ice and dropping the ice into the ice storage box, and the ice storage box of the ice storage box. An ice receiving member that is disposed on the bottom plate and has an ice receiving surface for receiving ice that has fallen into the ice storage box, and an ice receiving member that is disposed inside the ice storage box and that is above the ice stored in the ice storage box. A refrigerator provided with an ice storage amount detection body for stopping the operation of the automatic ice making unit when the height of the upper part of the ice contacting it reaches a predetermined height, wherein the ice receiving member is The ice receiving surface forms an inclined surface extending from near one side of the bottom plate of the ice storage box to above the other side of the bottom plate. Characterized in that it is elastically supported on the bottom plate of the serial ice box.
【0008】この第1の手段によれば、受氷部材の受氷
面が貯氷箱の底板の一側付近からこの底板の他側上方ま
で延びる傾斜面をなすため、貯氷箱内に落下した氷は、
まず受氷面上を貯氷箱の底板の一側方向に滑り落ち(あ
るいは転がり落ち)、貯氷箱の底板の一側付近に貯まり
始める。そして、受氷部材は、その受氷面が貯氷箱の底
板上に弾性的に支持されているので、貯氷箱内に貯まる
氷の重さによって次第に受氷面の傾きが小さくなり、貯
氷箱の底板に接近してゆく。従って、自動製氷部により
落下される氷は、受氷面の傾きが小さくなるに従って順
次、貯氷箱の底板の一側から他側の方へ貯まって行く。
このことにより、貯氷箱内の氷は、自動製氷部による落
下位置を中心に山状に積層することなく、貯氷箱全体に
ほぼ一様な高さで積層してゆき、貯氷箱全体にほぼ一様
な高さで積層した氷の上部が所定の高さに達すると、そ
の上部に当接した貯氷量検知体の働きで自動製氷部の作
動が停止される。また、受氷部材はその受氷面が貯氷箱
の底板上に弾性的に支持されているので、受氷部材によ
って氷の落下による衝撃を緩和することができる。According to the first means, the ice receiving surface of the ice receiving member forms an inclined surface extending from near one side of the bottom plate of the ice storage box to above the other side of the bottom plate, so that the ice dropped in the ice storage box. Is
First, it slides down (or rolls down) on the ice receiving surface toward one side of the bottom plate of the ice storage box, and begins to accumulate near one side of the bottom plate of the ice storage box. Since the ice receiving surface of the ice receiving member is elastically supported on the bottom plate of the ice storage box, the inclination of the ice receiving surface gradually decreases due to the weight of the ice stored in the ice storage box. Approaching the bottom plate. Therefore, the ice dropped by the automatic ice making unit gradually accumulates from one side of the bottom plate of the ice storage box to the other side as the inclination of the ice receiving surface becomes smaller.
As a result, the ice in the ice storage box does not pile up in a mountain shape around the fall position by the automatic ice making unit, but accumulates at a substantially uniform height over the entire ice storage box, and the ice is almost distributed over the entire ice storage box. When the upper portion of the ice stacked at such a height reaches a predetermined height, the operation of the automatic ice making unit is stopped by the function of the ice storage amount detector that abuts on the upper portion. In addition, since the ice receiving surface of the ice receiving member is elastically supported on the bottom plate of the ice storage box, the ice receiving member can reduce the impact caused by the falling of ice.
【0009】第2の手段は、冷凍室と、この冷凍室内に
配設され、矩形平面状をなす底板と、この底板の周縁か
ら上方へ延びる2対の対向側壁とを有する貯氷箱と、こ
の貯氷箱の上方に配設され、ブロック状の氷の製造と、
この氷の前記貯氷箱への落下とを自動的に反復するため
の自動製氷部と、前記貯氷箱の底板上に配設され、前記
貯氷箱内に落下した氷を受けるための受氷面を有する受
氷部材と、前記貯氷箱内に配設され、前記貯氷箱内に貯
まった氷の上部に当接しその氷の上部の高さが所定の高
さに達した場合に、前記自動製氷部の作動を停止させる
ための貯氷量検知体とを備えた冷蔵庫であって、前記受
氷部材は、その受氷面が前記貯氷箱の底板の一側付近か
らこの底板の他側上方まで延びる傾斜面をなす弾性体か
らなることを特徴とする。A second means is an ice storage box having a freezer compartment, a bottom plate having a rectangular planar shape and disposed in the freezer compartment, and two pairs of opposing side walls extending upward from the peripheral edge of the bottom plate, and It is placed above the ice storage box and produces block-shaped ice,
An automatic ice making unit for automatically repeating the falling of the ice into the ice storage box, and an ice receiving surface provided on the bottom plate of the ice storage box for receiving the ice falling in the ice storage box. The ice receiving member having, and the automatic ice making unit, which is disposed in the ice storage box, abuts against an upper portion of the ice stored in the ice storage box, and the height of the upper portion of the ice reaches a predetermined height. And an ice storage amount detecting body for stopping the operation of the ice storage member, wherein the ice receiving member has an inclination that an ice receiving surface extends from near one side of the bottom plate of the ice storage box to above the other side of the bottom plate. It is characterized by comprising an elastic body forming a surface.
【0010】この第2の手段によれば、受氷部材は、そ
の受氷面が貯氷箱の底板の一側付近からこの底板の他側
上方まで延びる傾斜面をなす弾性体からなるので、貯氷
箱内に貯まる氷の重さによって次第に受氷面の傾きが小
さくなり、貯氷箱の底板に接近してゆく。従って、上記
第1の手段と同様の作用が得られるとともに、受氷部材
が弾性体からなるため、受氷部材の受氷面自体も外力に
よって弾性的に変形する。このことにより、受氷部材に
よって氷の落下による衝撃を第1の手段よりさらに大き
く緩和することができる。According to the second means, the ice receiving member is made of an elastic body whose inclined surface extends from near one side of the bottom plate of the ice storage box to above the other side of the bottom plate. The weight of the ice stored in the box gradually decreases the inclination of the ice receiving surface, and approaches the bottom plate of the ice storage box. Therefore, the same effect as that of the first means can be obtained, and since the ice receiving member is made of an elastic body, the ice receiving surface itself of the ice receiving member is also elastically deformed by an external force. This allows the ice receiving member to further reduce the impact caused by the falling of the ice as compared with the first means.
【0011】第3の手段は、冷凍室と、この冷凍室内に
配設され、矩形平面状をなす底板と、この底板の周縁か
ら上方へ延びる2対の対向側壁とを有する貯氷箱と、こ
の貯氷箱の上方に配設され、ブロック状の氷の製造と、
この氷の前記貯氷箱への落下とを自動的に反復するため
の自動製氷部と、前記貯氷箱の底板上に配設され、前記
貯氷箱内に落下した氷を受けるための受氷面を有する受
氷部材と、前記貯氷箱内に配設され、前記貯氷箱内に貯
まった氷の上部に当接しその氷の上部の高さが所定の高
さに達した場合に、前記自動製氷部の作動を停止させる
ための貯氷量検知体とを備えた冷蔵庫であって、前記受
氷部材は、その受氷面が、山形の横断面形状を有しこの
山形の山頂部が前記自動製氷部による氷の落下位置に略
対応するとともに、前記貯氷箱の底板上に弾性的に支持
されていることを特徴とする。A third means is an ice storage box having a freezing compartment, a bottom plate having a rectangular plane shape and arranged in the freezing compartment, and two pairs of opposing side walls extending upward from the peripheral edge of the bottom plate, It is placed above the ice storage box and produces block-shaped ice,
An automatic ice making unit for automatically repeating the dropping of this ice into the ice storage box, and an ice receiving surface provided on the bottom plate of the ice storage box for receiving the ice falling in the ice storage box. The ice receiving member having, and the automatic ice making unit, which is disposed in the ice storage box, abuts against an upper portion of the ice stored in the ice storage box, and the height of the upper portion of the ice reaches a predetermined height. And an ice storage amount detector for stopping the operation of the ice receiving member, wherein the ice receiving member has an ice receiving surface having a mountain-shaped cross-sectional shape, and the mountain top of the mountain is the automatic ice making unit. It substantially corresponds to the position where the ice is dropped by and is elastically supported on the bottom plate of the ice storage box.
【0012】この第3の手段によれば、受氷部材の受氷
面が山形の横断面形状を有し、この山形の山頂部が自動
製氷部による氷の落下位置に略対応するため、貯氷箱内
に落下した氷は、まず受氷面の山形の山頂部付近に当た
ってから、受氷面の山頂部両側の斜面を滑り落ち(ある
いは転がり落ち)、受氷面の斜面の下部に貯まり始め
る。そして、受氷部材は、その受氷面が貯氷箱の底板上
に弾性的に支持されているので、貯氷箱内に貯まる氷の
重さによって次第に受氷面の山頂部両側の斜面の傾きが
小さくなり、貯氷箱の底板に接近してゆく。従って、自
動製氷部により落下される氷は、受氷面の山頂部両側の
斜面の傾きが小さくなるに従って順次、受氷面の山頂部
両側の斜面から山頂部の方へ貯まって行く。このことに
より、貯氷箱内の氷は、自動製氷部による落下位置を中
心に山状に積層することなく、貯氷箱全体にほぼ一様な
高さで積層してゆき、貯氷箱全体にほぼ一様な高さで積
層した氷の上部が所定の高さに達すると、その上部に当
接した貯氷量検知体の働きで自動製氷部の作動が停止さ
れる。また、受氷部材はその受氷面が貯氷箱の底板上に
弾性的に支持されているので、受氷部材によって氷の落
下による衝撃を緩和することができる。According to the third means, the ice receiving surface of the ice receiving member has a mountain-shaped cross-sectional shape, and the mountain top of this mountain substantially corresponds to the position where the ice is dropped by the automatic ice making unit. The ice that has fallen into the box first hits the vicinity of the mountain top of the ice receiving surface, then slides down (or rolls) down the slopes on both sides of the top of the ice receiving surface, and begins to accumulate at the bottom of the slope of the ice receiving surface. Further, since the ice receiving surface of the ice receiving member is elastically supported on the bottom plate of the ice storage box, the inclination of the slopes on both sides of the mountain top of the ice receiving surface gradually increases depending on the weight of the ice stored in the ice storage box. It becomes smaller and approaches the bottom plate of the ice storage box. Therefore, the ice dropped by the automatic ice-making unit gradually accumulates from the slopes on both sides of the ice receiving surface toward the summit as the slopes on both sides of the mountain receiving portion decrease. As a result, the ice in the ice storage box does not pile up in a mountain shape around the fall position by the automatic ice making unit, but accumulates at a substantially uniform height over the entire ice storage box, and the ice is almost distributed over the entire ice storage box. When the upper portion of the ice stacked at such a height reaches a predetermined height, the operation of the automatic ice making unit is stopped by the function of the ice storage amount detector that abuts on the upper portion. In addition, since the ice receiving surface of the ice receiving member is elastically supported on the bottom plate of the ice storage box, the ice receiving member can reduce the impact caused by the falling of ice.
【0013】第4の手段は、冷凍室と、この冷凍室内に
配設され、矩形平面状をなす底板と、この底板の周縁か
ら上方へ延びる2対の対向側壁とを有する貯氷箱と、こ
の貯氷箱の上方に配設され、ブロック状の氷の製造と、
この氷の前記貯氷箱への落下とを自動的に反復するため
の自動製氷部と、前記貯氷箱の底板上に配設され、前記
貯氷箱内に落下した氷を受けるための受氷面を有する受
氷部材と、前記貯氷箱内に配設され、前記貯氷箱内に貯
まった氷の上部に当接しその氷の上部の高さが所定の高
さに達した場合に、前記自動製氷部の作動を停止させる
ための貯氷量検知体とを備えた冷蔵庫であって、前記受
氷部材は、その受氷面が山形の横断面形状を有し、この
山形の山頂部が前記自動製氷部による氷の落下位置に略
対応する弾性体からなることを特徴とする。A fourth means is an ice storage box having a freezer compartment, a bottom plate having a rectangular planar shape and arranged in the freezer compartment, and two pairs of opposed side walls extending upward from the peripheral edge of the bottom plate, and It is placed above the ice storage box and produces block-shaped ice,
An automatic ice making unit for automatically repeating the dropping of this ice into the ice storage box, and an ice receiving surface provided on the bottom plate of the ice storage box for receiving the ice falling in the ice storage box. The ice receiving member having, and the automatic ice making unit, which is disposed in the ice storage box, abuts against an upper portion of the ice stored in the ice storage box, and the height of the upper portion of the ice reaches a predetermined height. A refrigerator having an ice storage amount detector for stopping the operation of the ice receiving member, wherein the ice receiving member has an ice receiving surface having a mountain-shaped cross-sectional shape, and the mountain top of the mountain is the automatic ice making unit. It is characterized by being made of an elastic body substantially corresponding to the position where the ice is dropped by.
【0014】この第4の手段によれば、受氷部材は、そ
の受氷面が山形の横断面形状を有し、この山形の山頂部
が前記自動製氷部による氷の落下位置に略対応する弾性
体からなるので、貯氷箱内に貯まる氷の重さによって次
第に受氷面の山頂部両側の斜面の傾きが小さくなり、貯
氷箱の底板に接近してゆく。従って、上記第3の手段と
同様の作用が得られるとともに、受氷部材が弾性体から
なるため、受氷部材の受氷面自体も外力によって弾性的
に変形する。このため、受氷部材によって氷の落下によ
る衝撃を第3の手段よりさらに大きく緩和することがで
きる。According to the fourth means, the ice receiving member has an ice receiving surface having a mountain-shaped cross-sectional shape, and the mountain top of this mountain substantially corresponds to the position where the ice is dropped by the automatic ice making unit. Since it is made of an elastic material, the slope of the slopes on both sides of the mountain top of the ice receiving surface gradually decreases due to the weight of ice stored in the ice storage box, and approaches the bottom plate of the ice storage box. Therefore, the same effect as the third means can be obtained, and since the ice receiving member is made of an elastic body, the ice receiving surface itself of the ice receiving member is also elastically deformed by an external force. For this reason, the impact due to the falling of the ice can be further reduced by the ice receiving member as compared with the third means.
【0015】[0015]
【発明の実施の形態】次に、図面を参照して本発明の実
施の形態について説明する。なお、図1乃至図9に示す
本発明の実施の形態において、図10乃至図14に示す
従来例と同一の構成部分には同一符号を付すとともに、
図10乃び図11に示す従来例と同一の構成部分につい
ての詳細な説明は省略する。Next, an embodiment of the present invention will be described with reference to the drawings. In the embodiments of the present invention shown in FIGS. 1 to 9, the same components as those of the conventional example shown in FIGS.
Detailed description of the same components as those in the conventional example shown in FIGS. 10 and 11 will be omitted.
【0016】第1の実施形態 図1乃び図2は本発明の第1の実施形態を示す図であ
る。図1に示すように、本実施形態の冷蔵庫は、冷蔵室
100を備え、この冷蔵室100の下方に冷凍室上段1
aが設けられている。また、冷蔵室100の下部にはタ
ンク棚108が配設され、冷凍室上段1a内には貯氷箱
2が配設されている。この貯氷箱2は、図1及び図2に
示すように、矩形平面状をなす底板10と、この底板1
0の周縁から上方へ延びる2対の対向側壁11〜14と
を有している。 First Embodiment FIG. 1 and FIG. 2 are views showing a first embodiment of the present invention. As shown in FIG. 1, the refrigerator according to the present embodiment includes a refrigerating compartment 100, and below the refrigerating compartment 100, a freezer compartment upper stage 1 is provided.
a is provided. Further, a tank shelf 108 is arranged below the refrigerating compartment 100, and an ice storage box 2 is arranged inside the upper stage 1a of the freezing compartment. As shown in FIGS. 1 and 2, the ice storage box 2 includes a bottom plate 10 having a rectangular planar shape, and the bottom plate 1.
0 has two pairs of opposing side walls 11 to 14 extending upward from the peripheral edge thereof.
【0017】次に、図1に示すように、貯氷箱2の上方
に、複数のブロック状の氷の製造と、この氷の貯氷箱2
への落下とを自動的に反復するための自動製氷部3が設
けられている。この自動製氷部3は、上記タンク棚10
8内に設置された貯水タンク20と、冷凍室上段1a内
において貯氷箱2の上方に配設された製氷皿8(図2参
照)とを有している。この製氷皿8は、貯水タンク20
から給水管21を通じて供給される水を貯め、複数のブ
ロック状の氷を製造するためのものである。また、製氷
皿8はその長手方向が貯氷箱2の長手方向に一致すると
ともに、その長手方向に延びる回動軸線8aの回りに回
動自在となっている。そして、自動製氷部3は更に、製
氷皿8を貯氷箱2側へ反転させるとともに、製氷皿8を
その回動軸8a回りに捩じって氷を貯氷箱2に落下させ
るための反転・離氷手段(図示せず)を有している(図
3(a)参照)。Next, as shown in FIG. 1, a plurality of blocks of ice are manufactured above the ice storage box 2 and the ice storage box 2 of the ice is stored.
An automatic ice-making unit 3 is provided for automatically repeating falling and dropping. The automatic ice making unit 3 is provided with the tank shelf 10 described above.
It has a water storage tank 20 installed inside 8, and an ice tray 8 (see FIG. 2) arranged above the ice storage box 2 in the freezer compartment upper stage 1a. This ice tray 8 is a water storage tank 20.
It is for storing water supplied from the water supply pipe 21 to produce a plurality of blocks of ice. The ice tray 8 has its longitudinal direction aligned with the longitudinal direction of the ice storage box 2, and is rotatable about a rotation axis 8a extending in the longitudinal direction. Then, the automatic ice-making unit 3 further reverses the ice tray 8 to the ice storage box 2 side, and twists the ice tray 8 around its rotation axis 8a so as to drop the ice into the ice storage box 2. It has ice means (not shown) (see FIG. 3A).
【0018】次に、図1及び図2に示すように、上記貯
氷箱2の底板10上に、貯氷箱2内に落下した氷を受け
るための受氷面(上面)6を有する平板状の受氷板(受
氷部材)5が配設されている。この受氷板5は、図2に
示すように、その受氷面6が貯氷箱2の底板10の一側
15付近からこの底板10の他側16上方まで延びる傾
斜面をなしている。すなわち、受氷板5は、その一側1
7が貯氷箱2の底板10の一側15に当接し、その他側
18が底板10の他側16上方に位置している。また、
受氷板5の他側18と底板10との間にはバネやゴム等
の弾性部材7が介在され、この弾性部材7によって受氷
板5が底板10上に弾性的に支持されている。そして、
受氷部板5は、貯氷箱2内に貯まる氷の重さによって次
第に受氷面6の傾きが小さくなり、貯氷箱2の底板10
に接近してゆくようになっている(図3参照)。Next, as shown in FIGS. 1 and 2, on the bottom plate 10 of the ice storage box 2, a flat plate having an ice receiving surface (upper surface) 6 for receiving the ice falling in the ice storage box 2 is formed. An ice receiving plate (ice receiving member) 5 is arranged. As shown in FIG. 2, the ice receiving plate 5 has an ice receiving surface 6 that is an inclined surface extending from near one side 15 of the bottom plate 10 of the ice storage box 2 to above the other side 16 of the bottom plate 10. That is, the ice receiving plate 5 has one side 1
7 contacts one side 15 of the bottom plate 10 of the ice storage box 2, and the other side 18 is located above the other side 16 of the bottom plate 10. Also,
An elastic member 7 such as a spring or rubber is interposed between the other side 18 of the ice receiving plate 5 and the bottom plate 10, and the elastic member 7 elastically supports the ice receiving plate 5 on the bottom plate 10. And
In the ice receiving plate 5, the inclination of the ice receiving surface 6 becomes gradually smaller due to the weight of the ice stored in the ice storage box 2, and the bottom plate 10 of the ice storage box 2 becomes smaller.
(See Fig. 3).
【0019】また図1及び図2に示すように、貯氷箱2
内において、製氷皿8の下方に貯氷量検知レバー4が配
設されている。この検知レバー4は、貯氷箱2内に貯ま
った氷の上部に当接しその氷の上部の高さが所定の高さ
に達した場合に、自動製氷部3の作動を一時停止させる
ためのものである。例えば、検知レバー4は、その基端
部に対応するマイクロスイッチ等を介して、製氷皿8へ
の貯水タンク20からの給水を中止させるようになって
いる。As shown in FIGS. 1 and 2, the ice storage box 2
Inside, an ice storage amount detection lever 4 is disposed below the ice tray 8. The detection lever 4 is for temporarily stopping the operation of the automatic ice making unit 3 when the ice lever 2 comes into contact with the upper portion of the ice stored in the ice storage box 2 and the height of the upper portion of the ice reaches a predetermined height. Is. For example, the detection lever 4 is configured to stop the water supply from the water storage tank 20 to the ice tray 8 via a micro switch or the like corresponding to the base end portion thereof.
【0020】次に、このような構成よりなる本実施形態
の作用について図3を参照して説明する。本実施形態に
よれば、受氷板5の受氷面6が貯氷箱2の底板10の一
側15からこの底板10の他側16上方まで延びる傾斜
面をなすため、図3(a)に示すように、製氷皿8から
受氷板5の受氷面6上に落下した氷Kは、まず受氷面6
上を受氷板5の一側17方向に滑り落ち(あるいは転が
り落ち)、貯氷箱2の底板10の一側15付近に貯まり
始める。そして、受氷板5は、貯氷箱2内に貯まる氷K
の重さによって次第に受氷面6の傾きが小さくなり、貯
氷箱2の底板10に接近してゆくので、図3(a)〜
(c)に示すように、製氷皿8から落下する氷Kは、受
氷面6の傾きが小さくなるに従って順次、貯氷箱2の底
板10の一側15から他側16の方へ貯まって行く。Next, the operation of this embodiment having such a configuration will be described with reference to FIG. According to the present embodiment, the ice receiving surface 6 of the ice receiving plate 5 is an inclined surface extending from one side 15 of the bottom plate 10 of the ice storage box 2 to above the other side 16 of the bottom plate 10, so that FIG. As shown in the figure, the ice K dropped from the ice tray 8 onto the ice receiving surface 6 of the ice receiving plate 5 is first treated with the ice receiving surface 6
It slides down (or rolls down) toward the one side 17 of the ice receiving plate 5, and starts to store near the one side 15 of the bottom plate 10 of the ice storage box 2. And the ice receiving plate 5 is the ice K stored in the ice storage box 2.
Since the inclination of the ice receiving surface 6 becomes gradually smaller due to the weight of the ice cube and approaches the bottom plate 10 of the ice storage box 2, FIG.
As shown in (c), the ice K falling from the ice tray 8 gradually accumulates from one side 15 to the other side 16 of the bottom plate 10 of the ice storage box 2 as the inclination of the ice receiving surface 6 becomes smaller. .
【0021】このことにより、図3(c)に示すよう
に、貯氷箱2内の氷Kは、製氷皿8の下方(自動製氷部
3による氷Kの落下位置)に山状に積層することなく、
貯氷箱2全体にほぼ一様な高さで積層してゆき、貯氷箱
2全体にほぼ一様な高さで積層した氷Kの上部が所定の
高さに達すると、その上部に当接した検知レバー4の働
きで自動製氷部3の作動が停止される。このため、貯氷
箱2の容量を有効に使い、貯氷箱2に多くの氷Kを効率
よく貯めることができる。また、受氷板5は弾性部材7
によって貯氷箱2の底板10上に弾性的に支持されてい
るので、受氷板5によって氷Kの落下による衝撃を緩和
することができる。このため、貯氷箱2内への氷Kの落
下音を小さくすることができる。As a result, as shown in FIG. 3 (c), the ice K in the ice storage box 2 should be stacked in a mountain shape below the ice tray 8 (the position where the ice K is dropped by the automatic ice making unit 3). Without
When the upper portion of the ice K stacked on the entire ice storage box 2 at a substantially uniform height and reaching a predetermined height, it abuts on the upper portion of the ice K stacked on the entire ice storage box 2 at a substantially uniform height. The operation of the automatic ice making unit 3 is stopped by the action of the detection lever 4. Therefore, it is possible to effectively use the capacity of the ice storage box 2 and efficiently store a large amount of ice K in the ice storage box 2. Also, the ice receiving plate 5 is an elastic member 7.
Since it is elastically supported on the bottom plate 10 of the ice storage box 2, the ice receiving plate 5 can reduce the impact caused by the falling of the ice K. Therefore, the sound of the ice K falling into the ice storage box 2 can be reduced.
【0022】なお、図2に示すように、受氷板5の他側
18と貯氷箱2の側壁14との間の最大間隔Aは、ブロ
ック状の氷が通り抜けられないような寸法にしておく必
要がある。この場合、受氷板5の他側18と貯氷箱2の
側壁14との間から氷の細片等が落下して貯氷箱2の底
板10上に堆積することもあるので、この底板10上に
堆積した氷の細片等を除去することができるよう、受氷
板5が貯氷箱2から取外し可能となっていることが好ま
しい。また、図4に示すように、受氷板5の他側18と
貯氷箱2の側壁14との間に、氷の細片等の落下を防止
するためのゴム等で出来た伸縮自在のシール部材19を
取付けてもよい。As shown in FIG. 2, the maximum distance A between the other side 18 of the ice receiving plate 5 and the side wall 14 of the ice storage box 2 is set to a size such that block-shaped ice cannot pass through. There is a need. In this case, since small pieces of ice and the like may fall from between the other side 18 of the ice receiving plate 5 and the side wall 14 of the ice storage box 2 and accumulate on the bottom plate 10 of the ice storage box 2, the bottom plate 10 of the ice storage box 2 may be deposited. It is preferable that the ice receiving plate 5 can be removed from the ice storage box 2 so that the small pieces of ice accumulated on the ice can be removed. In addition, as shown in FIG. 4, a stretchable seal made of rubber or the like is provided between the other side 18 of the ice receiving plate 5 and the side wall 14 of the ice storage box 2 to prevent a small piece of ice from falling. The member 19 may be attached.
【0023】第2の実施形態 図5は本発明の第2の実施形態を示す図である。図5に
示す第2の実施形態は、図1乃至図3に示す上記第1の
実施形態の受氷板5及び弾性部材7に代えて、弾性受氷
体(受氷部材)30を貯氷箱2の底板10上に配設した
ものであり、その他の構成は図1乃至図3に示す上記第
1の実施形態と同様である。 Second Embodiment FIG. 5 is a diagram showing a second embodiment of the present invention. In the second embodiment shown in FIG. 5, instead of the ice receiving plate 5 and the elastic member 7 of the first embodiment shown in FIGS. 1 to 3, an elastic ice receiver (ice receiving member) 30 is stored in the ice storage box. 2 is disposed on the bottom plate 10, and the other configurations are the same as those of the first embodiment shown in FIGS. 1 to 3.
【0024】図5において、上記弾性受氷体30は受氷
面(上面)36を有するスポンジ等の非常に柔らかい弾
性体からなっている。また、弾性受氷体30の受氷面3
6は、貯氷箱2の底板10の一側15付近から、この底
板10の他側16上方まで延びる傾斜面をなしている。
そして、弾性受氷体30は、貯氷箱2内に貯まる氷の重
さによって次第に受氷面36の傾きが小さくなり、貯氷
箱2の底板10に接近してゆくようになっている。な
お、弾性受氷体30の受氷面6を含む表面には、弾性受
氷体30内に氷の溶けた水分が浸透して凍結しないよ
う、防水性のコーティング等が施されていることが好ま
しい。In FIG. 5, the elastic ice receiver 30 is made of a very soft elastic body such as a sponge having an ice receiving surface (upper surface) 36. In addition, the ice receiving surface 3 of the elastic ice receiving body 30
Reference numeral 6 denotes an inclined surface extending from near one side 15 of the bottom plate 10 of the ice storage box 2 to above the other side 16 of the bottom plate 10.
The elastic ice receiving body 30 is configured such that the inclination of the ice receiving surface 36 is gradually reduced due to the weight of the ice stored in the ice storage box 2, and the elastic ice receiving body 30 approaches the bottom plate 10 of the ice storage box 2. It should be noted that the surface including the ice receiving surface 6 of the elastic ice receiver 30 is provided with a waterproof coating or the like so that the water in which the ice melted penetrates into the elastic ice receiver 30 and is not frozen. preferable.
【0025】次に、このような構成よりなる本実施形態
の作用について説明する。本実施形態によれば、弾性受
氷体30の受氷面36は、貯氷箱2の底板10の一側1
5付近から、この底板10の他側16上方まで延びる傾
斜面をなし、また弾性受氷体30は、貯氷箱2内に貯ま
る氷の重さによって次第に受氷面36の傾きが小さくな
り、貯氷箱2の底板10に接近してゆくようになってい
るので、図3に示す上記第1の実施形態の場合と同様、
貯氷箱2内の氷は、製氷皿8の下方に山状に積層するこ
となく、貯氷箱2全体にほぼ一様な高さで積層してゆ
き、貯氷箱2全体にほぼ一様な高さで積層した氷Kの上
部が所定の高さに達すると、その上部に当接した検知レ
バー4の働きで自動製氷部3(図1参照)の作動が停止
される。Next, the operation of this embodiment having such a configuration will be described. According to this embodiment, the ice receiving surface 36 of the elastic ice receiving body 30 is located on the one side 1 of the bottom plate 10 of the ice storage box 2.
5 forms an inclined surface extending from the vicinity of 5 to above the other side 16 of the bottom plate 10, and the elastic ice receiving body 30 gradually reduces the inclination of the ice receiving surface 36 due to the weight of the ice stored in the ice storage box 2, and Since it approaches the bottom plate 10 of the box 2, as in the case of the first embodiment shown in FIG.
The ice in the ice storage box 2 is not stacked below the ice tray 8 in a mountain shape, but is stacked on the entire ice storage box 2 at a substantially uniform height. When the upper portion of the ice K stacked in step 2 reaches a predetermined height, the operation of the automatic ice making unit 3 (see FIG. 1) is stopped by the action of the detection lever 4 that is in contact with the upper portion.
【0026】このため、貯氷箱2の容量を有効に使い、
貯氷箱2に多くの氷を効率よく貯めることができる。ま
た、弾性受氷体30はスポンジ等の非常に柔らかい弾性
体からなっているので、弾性受氷体30の受氷面36自
体も外力によって弾性的に変形する。このことにより、
弾性受氷体30によって氷の落下による衝撃を、上記第
1の実施形態の受氷板5よりさらに大きく緩和すること
ができる。このため、貯氷箱2内への氷の落下音を、上
記第1の実施形態よりさらに小さくすることができる。Therefore, the capacity of the ice storage box 2 is effectively used,
A large amount of ice can be efficiently stored in the ice storage box 2. Further, since the elastic ice receiver 30 is made of a very soft elastic body such as sponge, the ice receiving surface 36 itself of the elastic ice receiver 30 is also elastically deformed by an external force. This allows
The elastic ice receiving body 30 can further reduce the impact caused by the falling of ice to a greater extent than the ice receiving plate 5 of the first embodiment. Therefore, the sound of ice falling into the ice storage box 2 can be further reduced as compared with the first embodiment.
【0027】第3の実施形態 図6は本発明の第3の実施形態を示す図である。図6に
示す第3の実施形態は、図1乃至図3に示す上記第1の
実施形態の受氷板5及び弾性部材7に代えて、受氷部材
50及び弾性部材59を貯氷箱2の底板10上に配設し
たものであり、その他の構成は図1乃至図3に示す上記
第1の実施形態と同様である。 Third Embodiment FIG. 6 is a diagram showing a third embodiment of the present invention. In the third embodiment shown in FIG. 6, instead of the ice receiving plate 5 and the elastic member 7 of the first embodiment shown in FIGS. 1 to 3, an ice receiving member 50 and an elastic member 59 are provided in the ice storage box 2. It is arranged on the bottom plate 10, and other configurations are similar to those of the first embodiment shown in FIGS. 1 to 3.
【0028】図6において、上記受氷部材50は、2枚
の平板状の受氷板51,52からなっている。この2枚
の受氷板51,52は各々、貯氷箱2内に落下した氷を
受けるための受氷面(上面)53,54を有している。
また、一方の受氷板51の一側55は貯氷箱2の底板1
0の一側15付近に、他方の受氷板52の一側57はこ
の底板10の他側16付近に、それぞれ摺動自在に当接
している。また、両方の受氷板51,52の他側56,
58同士は、製氷皿8に略対応する底板10の上方にお
いて、互いに折曲げ自在に連結された連結部56,58
をなしている。そして、この互いに連結された受氷板5
1,52(受氷部材50)の受氷面53,54は、全体
として山形(三角形)の横断面形状を有し、この山形の
山頂部(連結部)56,58が製氷皿8からの氷の落下
位置に略対応するようになっている。In FIG. 6, the ice receiving member 50 is composed of two flat plate ice receiving plates 51 and 52. The two ice receiving plates 51 and 52 have ice receiving surfaces (upper surfaces) 53 and 54 for receiving the ice that has fallen into the ice storage box 2, respectively.
Further, one side 55 of the ice receiving plate 51 on one side is the bottom plate 1 of the ice storage box 2.
0, one side 57 of the other ice receiving plate 52, and one side 57 of the other ice receiving plate 52 slidably abut on the other side 16 of the bottom plate 10. Also, the other side 56 of both ice receiving plates 51, 52,
58 are connected to each other above the bottom plate 10 substantially corresponding to the ice tray 8 so as to be bendably connected to each other.
Has made. Then, the ice receiving plates 5 connected to each other
The ice receiving surfaces 53, 54 of the 1, 52 (ice receiving member 50) have a mountain-shaped (triangular) cross-sectional shape as a whole, and mountain-shaped peaks (connecting portions) 56, 58 of the mountain-shaped portions are formed from the ice tray 8. It almost corresponds to the position where the ice falls.
【0029】また、受氷部材50の連結部56,58と
底板10との間にはバネやゴム等の弾性部材59が介在
され、この弾性部材59によって連結部56,58が底
板10上に弾性的に支持されている。そして、受氷部材
50は、貯氷箱2内に貯まる氷の重さによって次第に、
受氷面53,54の傾きが小さくなるとともに、その山
頂部(連結部)56,58の高さが低くなり、貯氷箱2
の底板10に接近してゆくようになっている(図7参
照)。なお、受氷板51,52の幅は、受氷板51,5
2が貯氷箱2の底板10に接近する過程において、各々
の一側55,57が貯氷箱2の側壁13,14に突当た
らないような寸法になっている(図7参照)。An elastic member 59 such as a spring or rubber is interposed between the connecting portions 56 and 58 of the ice receiving member 50 and the bottom plate 10, and the connecting portions 56 and 58 are placed on the bottom plate 10 by the elastic member 59. It is elastically supported. Then, the ice receiving member 50 is gradually changed depending on the weight of the ice stored in the ice storage box 2.
The inclination of the ice receiving surfaces 53, 54 becomes smaller, and the height of the mountain tops (connecting portions) 56, 58 becomes lower, so that the ice storage box 2
It is designed to approach the bottom plate 10 (see FIG. 7). The width of the ice receiving plates 51, 52 is equal to the width of the ice receiving plates 51, 5
In the process of 2 approaching the bottom plate 10 of the ice storage box 2, one side 55, 57 is sized so as not to hit the side walls 13, 14 of the ice storage box 2 (see FIG. 7).
【0030】次に、このような構成よりなる本実施形態
の作用について図7を参照して説明する。本実施形態に
よれば、受氷部材50の受氷面53,54が全体として
山形の横断面形状を有し、この山形の山頂部56,58
が製氷皿8からの氷の落下位置に略対応するため、図7
(a)に示すように、製氷皿8から受氷部材50の受氷
面53,54上に落下した氷Kは、まず受氷面53,5
4の山形の山頂部56,58付近に当たってから、この
山頂部56,58の両側の受氷面(傾斜面)53,54
上を滑り落ち(あるいは転がり落ち)、各受氷板51,
52の一側55,57付近に貯まり始める。Next, the operation of this embodiment having such a configuration will be described with reference to FIG. According to this embodiment, the ice receiving surfaces 53 and 54 of the ice receiving member 50 have a mountain-shaped cross-sectional shape as a whole, and the mountain-shaped peaks 56 and 58 of the mountain-shaped portions are formed.
7 corresponds to the position where the ice falls from the ice tray 8, as shown in FIG.
As shown in (a), the ice K dropped from the ice tray 8 onto the ice receiving surfaces 53, 54 of the ice receiving member 50 first receives the ice receiving surfaces 53, 5.
After hitting the vicinity of the mountain peaks 56, 58 of No. 4, the ice receiving surfaces (slopes) 53, 54 on both sides of the mountain peaks 56, 58
Sliding down (or rolling down), each ice receiving plate 51,
It starts to accumulate near one side 55, 57 of 52.
【0031】そして、受氷部材50は、貯氷箱2内に貯
まる氷の重さによって次第に受氷面53,54の傾きが
小さくなるとともに、その山頂部56,58の高さが低
くなり、貯氷箱2の底板10に接近してゆくので、図7
(a)〜(c)に示すように、製氷皿8から落下する氷
Kは、受氷面53,54の傾きが小さくなるに従って順
次、各受氷板51,52の一側55、57(貯氷箱2の
底板10の両側15,16)から連結部56,58の方
へ貯まって行く。In the ice receiving member 50, the weight of the ice stored in the ice storage box 2 gradually reduces the inclination of the ice receiving surfaces 53 and 54, and the height of the peaks 56 and 58 of the ice receiving members 50 decreases, so that the ice receiving member 50 is stored. As it approaches the bottom plate 10 of the box 2, FIG.
As shown in (a) to (c), the ice K falling from the ice tray 8 successively has one side 55, 57 (each of the ice receiving plates 51, 52 as the inclination of the ice receiving surfaces 53, 54 becomes smaller. It accumulates from both sides 15, 16) of the bottom plate 10 of the ice storage box 2 toward the connecting portions 56, 58.
【0032】このことにより、図7(c)に示すよう
に、貯氷箱2内の氷Kは、製氷皿8の下方(自動製氷部
3による氷Kの落下位置)に山状に積層することなく、
貯氷箱2全体にほぼ一様な高さで積層してゆき、貯氷箱
2全体にほぼ一様な高さで積層した氷Kの上部が所定の
高さに達すると、その上部に当接した検知レバー4の働
きで自動製氷部3(図1参照)の作動が停止される。こ
のため、貯氷箱2の容量を有効に使い、貯氷箱2に多く
の氷Kを効率よく貯めることができる。また、受氷部材
50の受氷板51,52は弾性部材59によって貯氷箱
2の底板10上に弾性的に支持されているので、受氷板
51,52によって氷Kの落下による衝撃を緩和するこ
とができる。このため、貯氷箱2内への氷Kの落下音を
小さくすることができる。As a result, as shown in FIG. 7 (c), the ice K in the ice storage box 2 should be stacked in a mountain shape below the ice tray 8 (the position where the ice K is dropped by the automatic ice making unit 3). Without
When the upper portion of the ice K stacked on the entire ice storage box 2 at a substantially uniform height and reaching a predetermined height, it abuts on the upper portion of the ice K stacked on the entire ice storage box 2 at a substantially uniform height. The operation of the automatic ice making unit 3 (see FIG. 1) is stopped by the action of the detection lever 4. Therefore, it is possible to effectively use the capacity of the ice storage box 2 and efficiently store a large amount of ice K in the ice storage box 2. Further, since the ice receiving plates 51, 52 of the ice receiving member 50 are elastically supported on the bottom plate 10 of the ice storage box 2 by the elastic member 59, the ice receiving plates 51, 52 reduce the impact caused by the falling of the ice K. can do. Therefore, the sound of the ice K falling into the ice storage box 2 can be reduced.
【0033】なお、受氷部材50の受氷板51,52同
士の連結部56,58が弾性部材59によって支持され
ている場合について説明したが、受氷部材50の受氷板
51,52を各々独立した弾性部材で支持するようにし
てもよい。The case where the connecting portions 56, 58 of the ice receiving plates 51, 52 of the ice receiving member 50 are supported by the elastic member 59 has been described, but the ice receiving plates 51, 52 of the ice receiving member 50 will be described. You may make it support by each independent elastic member.
【0034】第4の実施形態 図8は本発明の第4の実施形態を示す図である。図8に
示す第2の実施形態は、図1乃至図3に示す上記第1の
実施形態の受氷板5及び弾性部材7に代えて、弾性受氷
板70を貯氷箱2の底板10上に配設したものであり、
その他の構成は図1乃至図3に示す上記第1の実施形態
と同様である。 Fourth Embodiment FIG. 8 is a diagram showing a fourth embodiment of the present invention. In the second embodiment shown in FIG. 8, instead of the ice receiving plate 5 and the elastic member 7 of the first embodiment shown in FIGS. 1 to 3, an elastic ice receiving plate 70 is provided on the bottom plate 10 of the ice storage box 2. It is arranged in
Other configurations are similar to those of the first embodiment shown in FIGS. 1 to 3.
【0035】図8において、上記弾性受氷板70は、貯
氷箱2内に落下した氷を受けるための受氷面(上面)7
6を有し、極めて柔らかく弾性に富んだ金属板やプラス
チック板よりなっている。この弾性受氷板70は、山形
(アーチ状)の横断面形状を有し、この山形の山頂部7
3が製氷皿8からの氷の落下位置に略対応するようにな
っている。また、弾性受氷板70の一側74は貯氷箱2
の底板10の一側15付近に、弾性受氷板70の他側7
5はこの底板10の他側16付近に、それぞれ摺動自在
に当接している。In FIG. 8, the elastic ice receiving plate 70 has an ice receiving surface (upper surface) 7 for receiving ice falling in the ice storage box 2.
6 has an extremely soft and elastic metal plate or plastic plate. The elastic ice receiving plate 70 has a mountain-shaped (arch-shaped) cross-sectional shape, and the mountain-shaped peak 7
3 corresponds to the position where the ice falls from the ice tray 8. Further, one side 74 of the elastic ice receiving plate 70 is attached to the ice storage box 2
Near the one side 15 of the bottom plate 10 of the
5 are slidably in contact with the other side 16 of the bottom plate 10.
【0036】そして、弾性受氷板70は、貯氷箱2内に
貯まる氷の重さによって次第に、受氷面76の山頂部7
3両側の斜面77,78の傾きが小さくなるとともに、
その山頂部73の高さが低くなり、貯氷箱2の底板10
に接近してゆくようになっている。なお、弾性受氷板7
0の幅は、弾性受氷板70が貯氷箱2の底板10に接近
する過程において、その両側74,75が貯氷箱2の側
壁13,14に突当たらないような寸法になっている。The elastic ice receiving plate 70 is gradually increased in weight depending on the weight of the ice stored in the ice storage box 2 on the mountain top portion 7 of the ice receiving surface 76.
As the slopes of the slopes 77 and 78 on both sides become smaller,
The height of the mountain top 73 is lowered, and the bottom plate 10 of the ice storage box 2 is
Is getting closer to. The elastic ice receiving plate 7
The width of 0 is set such that both sides 74 and 75 of the elastic ice receiving plate 70 do not abut against the side walls 13 and 14 of the ice storage box 2 when the elastic ice receiving plate 70 approaches the bottom plate 10 of the ice storage box 2.
【0037】次に、このような構成よりなる本実施形態
の作用について説明する。本実施形態によれば、弾性受
氷板70は、山形の横断面形状を有し、この山形の山頂
部73が製氷皿8からの氷の落下位置に略対応するよう
になり、また弾性受氷板70は貯氷箱2内に貯まる氷の
重さによって次第に、受氷面76の山頂部73両側の斜
面77,78の傾きが小さくなるとともに、その山頂部
73の高さが低くなり、貯氷箱2の底板10に接近して
ゆくようになっているっているので、図7に示す上記第
3の実施形態の場合と同様、貯氷箱2内の氷は、製氷皿
8の下方に山状に積層することなく、貯氷箱2全体にほ
ぼ一様な高さで積層してゆき、貯氷箱2全体にほぼ一様
な高さで積層した氷Kの上部が所定の高さに達すると、
その上部に当接した検知レバー4の働きで自動製氷部3
(図1参照)の作動が停止される。Next, the operation of this embodiment having such a configuration will be described. According to the present embodiment, the elastic ice receiving plate 70 has a mountain-shaped cross-sectional shape, and the mountain-shaped peak portion 73 substantially corresponds to the position where the ice falls from the ice tray 8, and The ice plate 70 gradually decreases in inclination of the slopes 77 and 78 on both sides of the mountain top portion 73 of the ice receiving surface 76 due to the weight of the ice stored in the ice storage box 2, and the height of the mountain top portion 73 becomes low, and Since it is adapted to approach the bottom plate 10 of the box 2, the ice in the ice storage box 2 is piled up below the ice tray 8 as in the case of the third embodiment shown in FIG. When the upper part of the ice K stacked on the whole ice storage box 2 at a substantially uniform height reaches a predetermined height without stacking in a fixed shape, ,
The automatic ice making unit 3 is operated by the action of the detection lever 4 which is in contact with the upper portion thereof.
The operation (see FIG. 1) is stopped.
【0038】このため、貯氷箱2の容量を有効に使い、
貯氷箱2に多くの氷を効率よく貯めることができる。ま
た、弾性受氷板70は極めて柔らかく弾性に富んだ金属
板やプラスチック板よりなっているので、弾性受氷板7
0によって氷の落下による衝撃を緩和することができ
る。このため、貯氷箱2内への氷の落下音を小さくする
ことができる。Therefore, the capacity of the ice storage box 2 is effectively used,
A large amount of ice can be efficiently stored in the ice storage box 2. Further, since the elastic ice receiving plate 70 is made of a metal plate or a plastic plate that is extremely soft and rich in elasticity, the elastic ice receiving plate 7
A value of 0 can mitigate the impact of falling ice. Therefore, the sound of ice falling into the ice storage box 2 can be reduced.
【0039】第5の実施形態 図9は本発明の第5の実施形態を示す図である。図9に
示す第5の実施形態は、図1乃至図3に示す上記第1の
実施形態の受氷板5及び弾性部材7に代えて、弾性受氷
体90を貯氷箱2の底板10上に配設したものであり、
その他の構成は図1乃至図3に示す上記第1の実施形態
と同様である。 Fifth Embodiment FIG. 9 is a diagram showing a fifth embodiment of the present invention. In the fifth embodiment shown in FIG. 9, instead of the ice receiving plate 5 and the elastic member 7 of the first embodiment shown in FIGS. 1 to 3, an elastic ice receiver 90 is placed on the bottom plate 10 of the ice storage box 2. It is arranged in
Other configurations are similar to those of the first embodiment shown in FIGS. 1 to 3.
【0040】図9において、上記弾性受氷体90は受氷
面(上面)96を有するスポンジ等の非常に柔らかい弾
性体からなっている。この弾性受氷体90の受氷面96
は、山形(アーチ状)の横断面形状を有し、この山形の
山頂部93が製氷皿8からの氷の落下位置に略対応する
ようになっている。また、受氷面96の山形の山頂部9
3両側の斜面97,98は各々、貯氷箱2の底板10の
両側15,16まで延びている。In FIG. 9, the elastic ice receiver 90 is made of a very soft elastic body such as a sponge having an ice receiving surface (upper surface) 96. The ice receiving surface 96 of this elastic ice receiving body 90
Has a mountain-shaped (arch-shaped) cross-sectional shape, and the mountain-shaped peak portion 93 substantially corresponds to the position where the ice falls from the ice tray 8. Also, the mountain-shaped peak 9 of the ice receiving surface 96
The slopes 97, 98 on the three sides extend to both sides 15, 16 of the bottom plate 10 of the ice storage box 2, respectively.
【0041】そして、弾性受氷体90は、貯氷箱2内に
貯まる氷の重さによって次第に、受氷面36の山頂部9
3両側の斜面97,98の傾きが小さくなるとともに、
その山頂部93の高さが低くなり、貯氷箱2の底板10
に接近してゆくようになっている。なお、弾性受氷体9
0の表面には、弾性受氷体90内に氷の溶けた水分が浸
透して凍結しないよう、防水性のコーティング等が施さ
れていることが好ましい。The elastic ice receiving body 90 gradually increases in weight depending on the weight of the ice stored in the ice storage box 2 on the mountain top portion 9 of the ice receiving surface 36.
3 As the slopes of the slopes 97 and 98 on both sides become smaller,
The height of the mountain top 93 is lowered, and the bottom plate 10 of the ice storage box 2 is
Is getting closer to. The elastic ice receiver 9
It is preferable that the surface of No. 0 has a waterproof coating or the like so that the water in which the ice melted penetrates into the elastic ice receiver 90 and is not frozen.
【0042】次に、このような構成よりなる本実施形態
の作用について説明する。本実施形態によれば、弾性受
氷体90の受氷面96は、山形の横断面形状を有し、こ
の山形の山頂部93が製氷皿8からの氷の落下位置に略
対応し、また弾性受氷体90は、貯氷箱2内に貯まる氷
の重さによって次第に、受氷面36の山頂部93両側の
斜面97,98の傾きが小さくなるとともに、その山頂
部93の高さが低くなり、貯氷箱2の底板10に接近し
てゆくようになっているので、図7に示す上記第3の実
施形態の場合と同様、貯氷箱2内の氷は、製氷皿8の下
方に山状に積層することなく、貯氷箱2全体にほぼ一様
な高さで積層してゆき、貯氷箱2全体にほぼ一様な高さ
で積層した氷Kの上部が所定の高さに達すると、その上
部に当接した検知レバー4の働きで自動製氷部3(図1
参照)の作動が停止される。Next, the operation of the present embodiment having such a configuration will be described. According to this embodiment, the ice receiving surface 96 of the elastic ice receiver 90 has a mountain-shaped cross-sectional shape, and the mountain-shaped peak portion 93 substantially corresponds to the position where the ice falls from the ice tray 8, In the elastic ice receiver 90, the slopes 97 and 98 on both sides of the mountain top portion 93 of the ice receiving surface 36 gradually decrease due to the weight of the ice stored in the ice storage box 2, and the height of the mountain top portion 93 decreases. Therefore, the ice in the ice storage box 2 is piled up below the ice tray 8 as in the case of the third embodiment shown in FIG. When the upper portion of the ice K stacked on the entire ice storage box 2 at a substantially uniform height reaches a predetermined height, the ice storage boxes 2 are stacked on the entire ice storage box 2 at a substantially uniform height without being stacked in a uniform shape. , The detection lever 4 abutting on the upper part of the automatic ice making unit 3 (see FIG.
(See) is stopped.
【0043】このため、貯氷箱2の容量を有効に使い、
貯氷箱2に多くの氷を効率よく貯めることができる。ま
た、弾性受氷体90はスポンジ等の非常に柔らかい弾性
体からなっているので、弾性受氷体90の受氷面96自
体も外力によって弾性的に変形する。このことにより、
弾性受氷体90によって氷の落下による衝撃を、上記第
3及び第4の実施形態の場合よりさらに大きく緩和する
ことができる。このため、貯氷箱2内への氷の落下音
を、上記第3及び第4の実施形態よりさらに小さくする
ことができる。Therefore, the capacity of the ice storage box 2 is effectively used,
A large amount of ice can be efficiently stored in the ice storage box 2. Further, since the elastic ice receiver 90 is made of a very soft elastic body such as sponge, the ice receiving surface 96 itself of the elastic ice receiver 90 is also elastically deformed by an external force. This allows
By the elastic ice receiver 90, the impact due to the falling of ice can be alleviated further than in the case of the third and fourth embodiments. Therefore, the sound of ice falling into the ice storage box 2 can be further reduced as compared with the third and fourth embodiments.
【0044】[0044]
【発明の効果】請求項1乃至4記載の発明によれば、貯
氷箱内の氷は、自動製氷部による落下位置を中心に山状
に積層することなく、貯氷箱全体にほぼ一様な高さで積
層してゆき、貯氷箱全体にほぼ一様な高さで積層した氷
の上部が所定の高さに達すると、その上部に当接した貯
氷量検知体の働きで自動製氷部の作動が停止される。こ
のため、貯氷箱の容量を有効に使い、貯氷箱に多くの氷
を効率よく貯めることができる。According to the first to fourth aspects of the present invention, the ice in the ice storage box does not have to be piled up in a mountain shape around the dropping position by the automatic ice making unit, and has a substantially uniform height. Then, when the upper part of the ice stacked on the entire ice storage box at a substantially uniform height reaches a predetermined height, the ice storage amount detector contacting the upper part of the ice storage works to activate the automatic ice making part. Is stopped. Therefore, it is possible to effectively use the capacity of the ice storage box and efficiently store a large amount of ice in the ice storage box.
【0045】また、請求項1または3記載の発明によれ
ば、受氷部材はその受氷面が貯氷箱の底板上に弾性的に
支持されているので、受氷部材によって氷の落下による
衝撃を緩和することができる。このため、貯氷箱内への
氷の落下音を小さくすることができる。According to the invention of claim 1 or 3, the ice receiving member has its ice receiving surface elastically supported on the bottom plate of the ice storage box. Can be relaxed. Therefore, the sound of ice falling into the ice storage box can be reduced.
【0046】また、請求項2または4記載の発明によれ
ば、受氷部材が弾性体からなるため、受氷部材の受氷面
自体も外力によって弾性的に変形する。このことによ
り、受氷部材によって氷の落下による衝撃を、請求項1
または3記載の発明よりさらに大きく緩和することがで
きる。このため、貯氷箱内への氷の落下音を、請求項1
または3記載の発明よりさらに小さくすることができ
る。According to the second or fourth aspect of the invention, since the ice receiving member is made of an elastic body, the ice receiving surface of the ice receiving member itself is elastically deformed by an external force. Due to this, the impact due to the falling of the ice by the ice receiving member is prevented.
Alternatively, it can be alleviated to a greater extent than the invention described in 3. For this reason, the sound of the ice falling into the ice storage box may be generated.
Alternatively, it can be made smaller than the invention described in 3.
【図1】本発明による冷蔵庫の第1の実施形態の要部を
示す縦断面図。FIG. 1 is a vertical cross-sectional view showing a main part of a first embodiment of a refrigerator according to the present invention.
【図2】図1のII‐II線方向断面図。FIG. 2 is a sectional view taken along line II-II of FIG.
【図3】図2に示す冷蔵庫の作用を示す図。FIG. 3 is a diagram showing an operation of the refrigerator shown in FIG.
【図4】図2に示す実施形態の変形例を示す要部断面
図。FIG. 4 is a cross-sectional view of essential parts showing a modified example of the embodiment shown in FIG.
【図5】本発明による冷蔵庫の第2の実施形態を図2に
対応して示す図。FIG. 5 is a view showing a second embodiment of the refrigerator according to the present invention, corresponding to FIG.
【図6】本発明による冷蔵庫の第3の実施形態を図2に
対応して示す図。FIG. 6 is a view showing a third embodiment of the refrigerator according to the present invention, corresponding to FIG. 2;
【図7】図6に示す冷蔵庫の作用を示す図。FIG. 7 is a diagram showing an operation of the refrigerator shown in FIG.
【図8】本発明による冷蔵庫の第4の実施形態を図2に
対応して示す図。FIG. 8 is a view showing a fourth embodiment of the refrigerator according to the present invention, corresponding to FIG.
【図9】本発明による冷蔵庫の第5の実施形態を図2に
対応して示す図。FIG. 9 is a view showing a fifth embodiment of the refrigerator according to the present invention, corresponding to FIG. 2;
【図10】従来の冷蔵庫の一例を示す斜視図。FIG. 10 is a perspective view showing an example of a conventional refrigerator.
【図11】図10に示す従来例の要部を示す斜視図。11 is a perspective view showing a main part of the conventional example shown in FIG.
【図12】図10に示す従来例の要部を示す縦断面図。12 is a vertical cross-sectional view showing the main parts of the conventional example shown in FIG.
【図13】図12のXIII ‐XIII 線方向断面図。13 is a sectional view taken along line XIII-XIII in FIG.
【図14】図13に示す従来例の作用を示す図。FIG. 14 is a diagram showing an operation of the conventional example shown in FIG.
1 冷凍室 2 貯氷箱 3 自動製氷部 4 貯氷量検知レバー 5 受氷板(受氷部材) 6,36,53,54,76,96 受氷面 7,59 弾性部材 8 製氷皿 10 底板 30,90 弾性受氷体(受氷部材) 50 受氷部材 51,52 受氷板 56,58 連結部(山頂部) 70 弾性受氷板(受氷部材) 73,93 山頂部 1 Freezer 2 Ice storage box 3 Automatic ice making unit 4 Ice storage amount detection lever 5 Ice receiving plate (ice receiving member) 6,36,53,54,76,96 Ice receiving surface 7,59 Elastic member 8 Ice tray 10 Bottom plate 30, 90 elastic ice receiver (ice receiving member) 50 ice receiving member 51, 52 ice receiving plate 56, 58 connecting portion (mountain top) 70 elastic ice receiving plate (ice receiving member) 73, 93 mountain top
Claims (4)
の底板の周縁から上方へ延びる2対の対向側壁とを有す
る貯氷箱と、 この貯氷箱の上方に配設され、ブロック状の氷の製造
と、この氷の前記貯氷箱への落下とを自動的に反復する
ための自動製氷部と、 前記貯氷箱の底板上に配設され、前記貯氷箱内に落下し
た氷を受けるための受氷面を有する受氷部材と、 前記貯氷箱内に配設され、前記貯氷箱内に貯まった氷の
上部に当接しその氷の上部の高さが所定の高さに達した
場合に、前記自動製氷部の作動を停止させるための貯氷
量検知体と、を備え、 前記受氷部材は、その受氷面が前記貯氷箱の底板の一側
付近からこの底板の他側上方まで延びる傾斜面をなすと
ともに前記貯氷箱の底板上に弾性的に支持されているこ
とを特徴とする冷蔵庫。1. An ice storage box having a freezer compartment, a bottom plate having a rectangular planar shape and arranged in the freezer compartment, and two pairs of opposing side walls extending upward from the peripheral edge of the bottom plate, and above the ice storage box. And an automatic ice making unit for automatically repeating the production of block-shaped ice and the dropping of the ice into the ice storage box, and the ice storage box disposed on the bottom plate of the ice storage box. An ice receiving member having an ice receiving surface for receiving ice falling therein, and an ice receiving member disposed in the ice storage box, abutting on an upper portion of the ice stored in the ice storage box, and a height of an upper portion of the ice is predetermined. And an ice storage amount detection body for stopping the operation of the automatic ice making unit when the height of the ice storage member is reached, the ice receiving member has an ice receiving surface from near one side of the bottom plate of the ice storage box. The bottom plate has an inclined surface extending to the other side and is elastically supported on the bottom plate of the ice storage box. Refrigerator, characterized in that.
の底板の周縁から上方へ延びる2対の対向側壁とを有す
る貯氷箱と、 この貯氷箱の上方に配設され、ブロック状の氷の製造
と、この氷の前記貯氷箱への落下とを自動的に反復する
ための自動製氷部と、 前記貯氷箱の底板上に配設され、前記貯氷箱内に落下し
た氷を受けるための受氷面を有する受氷部材と、 前記貯氷箱内に配設され、前記貯氷箱内に貯まった氷の
上部に当接しその氷の上部の高さが所定の高さに達した
場合に、前記自動製氷部の作動を停止させるための貯氷
量検知体と、を備え、 前記受氷部材は、その受氷面が前記貯氷箱の底板の一側
付近からこの底板の他側上方まで延びる傾斜面をなす弾
性体からなることを特徴とする冷蔵庫。2. An ice storage box having a freezer compartment, a bottom plate having a rectangular planar shape and arranged in the freezer compartment, and two pairs of opposed side walls extending upward from a peripheral edge of the bottom plate, and above the ice storage box. And an automatic ice making unit for automatically repeating the production of block-shaped ice and the dropping of the ice into the ice storage box, and the ice storage box disposed on the bottom plate of the ice storage box. An ice receiving member having an ice receiving surface for receiving ice falling therein, and an ice receiving member disposed in the ice storage box, abutting on an upper portion of the ice stored in the ice storage box, and a height of an upper portion of the ice is predetermined. And an ice storage amount detection body for stopping the operation of the automatic ice making unit when the height of the ice storage member is reached, the ice receiving member has an ice receiving surface from near one side of the bottom plate of the ice storage box. A refrigerator comprising an elastic body having an inclined surface extending to the upper side of the other side of the bottom plate.
の底板の周縁から上方へ延びる2対の対向側壁とを有す
る貯氷箱と、 この貯氷箱の上方に配設され、ブロック状の氷の製造
と、この氷の前記貯氷箱への落下とを自動的に反復する
ための自動製氷部と、 前記貯氷箱の底板上に配設され、前記貯氷箱内に落下し
た氷を受けるための受氷面を有する受氷部材と、 前記貯氷箱内に配設され、前記貯氷箱内に貯まった氷の
上部に当接しその氷の上部の高さが所定の高さに達した
場合に、前記自動製氷部の作動を停止させるための貯氷
量検知体と、を備え、 前記受氷部材は、その受氷面が、山形の横断面形状を有
しこの山形の山頂部が前記自動製氷部による氷の落下位
置に略対応するとともに、前記貯氷箱の底板上に弾性的
に支持されていることを特徴とする冷蔵庫。3. An ice storage box having a freezer compartment, a bottom plate having a rectangular planar shape and arranged in the freezer compartment, and two pairs of opposing side walls extending upward from the peripheral edge of the bottom plate, and above the ice storage box. And an automatic ice making unit for automatically repeating the production of block-shaped ice and the dropping of the ice into the ice storage box, and the ice storage box disposed on the bottom plate of the ice storage box. An ice receiving member having an ice receiving surface for receiving ice falling therein, and an ice receiving member disposed in the ice storage box, abutting on an upper portion of the ice stored in the ice storage box, and a height of an upper portion of the ice is predetermined. And an ice storage amount detector for stopping the operation of the automatic ice making unit when the height of the ice receiving member is reached, the ice receiving member of the ice receiving member has a chevron cross-sectional shape. The mountaintop of the Yamagata roughly corresponds to the position where the ice is dropped by the automatic ice making unit, and the top of the ice storage box has a bullet. Refrigerator, characterized in that it is to support.
の底板の周縁から上方へ延びる2対の対向側壁とを有す
る貯氷箱と、 この貯氷箱の上方に配設され、ブロック状の氷の製造
と、この氷の前記貯氷箱への落下とを自動的に反復する
ための自動製氷部と、 前記貯氷箱の底板上に配設され、前記貯氷箱内に落下し
た氷を受けるための受氷面を有する受氷部材と、 前記貯氷箱内に配設され、前記貯氷箱内に貯まった氷の
上部に当接しその氷の上部の高さが所定の高さに達した
場合に、前記自動製氷部の作動を停止させるための貯氷
量検知体と、を備え、 前記受氷部材は、その受氷面が山形の横断面形状を有
し、この山形の山頂部が前記自動製氷部による氷の落下
位置に略対応する弾性体からなることを特徴とする冷蔵
庫。4. An ice storage box having a freezer compartment, a bottom plate arranged in the freezer compartment and having a rectangular planar shape, and two pairs of opposing side walls extending upward from the peripheral edge of the bottom plate, and above the ice storage box. And an automatic ice making unit for automatically repeating the production of block-shaped ice and the dropping of the ice into the ice storage box, and the ice storage box disposed on the bottom plate of the ice storage box. An ice receiving member having an ice receiving surface for receiving ice falling therein, and an ice receiving member disposed in the ice storage box, abutting on an upper portion of the ice stored in the ice storage box, and a height of an upper portion of the ice is predetermined. And an ice storage amount detector for stopping the operation of the automatic ice making unit when the height of the ice receiving member is reached, the ice receiving member has an ice receiving surface having a chevron cross-sectional shape, The mountain top of the mountain shape is made of an elastic body that substantially corresponds to the position where the ice is dropped by the automatic ice making unit. The refrigerator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7335356A JPH09178316A (en) | 1995-12-22 | 1995-12-22 | Refrigerator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP7335356A JPH09178316A (en) | 1995-12-22 | 1995-12-22 | Refrigerator |
Publications (1)
Publication Number | Publication Date |
---|---|
JPH09178316A true JPH09178316A (en) | 1997-07-11 |
Family
ID=18287621
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP7335356A Pending JPH09178316A (en) | 1995-12-22 | 1995-12-22 | Refrigerator |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH09178316A (en) |
Cited By (13)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1522806A1 (en) * | 2003-10-07 | 2005-04-13 | Lg Electronics Inc. | Full ice level sensing apparatus and method |
CN100398945C (en) * | 2004-07-08 | 2008-07-02 | 乐金电子(天津)电器有限公司 | Detecting device of ice block weight |
US7475562B2 (en) | 2005-12-29 | 2009-01-13 | Maytag Corporation | Ice storage drawer for a bottom mount refrigerator |
CN107228514A (en) * | 2017-03-30 | 2017-10-03 | 常熟市福王制冷器材有限公司 | A kind of vertical-type ice maker and the method using the device ice making |
JP2018059693A (en) * | 2016-10-07 | 2018-04-12 | アクア株式会社 | refrigerator |
JP2020091049A (en) * | 2018-12-03 | 2020-06-11 | 三菱電機株式会社 | Ice making device and refrigerator |
EP3653968A3 (en) * | 2018-11-16 | 2021-08-04 | LG Electronics Inc. | Home appliance with an ice maker |
CN115200278A (en) * | 2021-04-12 | 2022-10-18 | 青岛海尔电冰箱有限公司 | Ice bank |
CN115200279A (en) * | 2021-04-12 | 2022-10-18 | 青岛海尔电冰箱有限公司 | Ice storage box |
WO2022218115A1 (en) * | 2021-04-12 | 2022-10-20 | 青岛海尔电冰箱有限公司 | Ice storage box |
CN115451617A (en) * | 2021-06-08 | 2022-12-09 | 青岛海尔电冰箱有限公司 | Ice making control method and ice making device |
WO2022264401A1 (en) * | 2021-06-18 | 2022-12-22 | 三菱電機株式会社 | Refrigerator |
WO2023153585A1 (en) * | 2022-02-10 | 2023-08-17 | 삼성전자주식회사 | Refrigerator |
-
1995
- 1995-12-22 JP JP7335356A patent/JPH09178316A/en active Pending
Cited By (20)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP1522806A1 (en) * | 2003-10-07 | 2005-04-13 | Lg Electronics Inc. | Full ice level sensing apparatus and method |
US7134292B2 (en) | 2003-10-07 | 2006-11-14 | Lg Electronics Inc. | Full ice level sensing apparatus and method |
CN100398945C (en) * | 2004-07-08 | 2008-07-02 | 乐金电子(天津)电器有限公司 | Detecting device of ice block weight |
US7475562B2 (en) | 2005-12-29 | 2009-01-13 | Maytag Corporation | Ice storage drawer for a bottom mount refrigerator |
JP2018059693A (en) * | 2016-10-07 | 2018-04-12 | アクア株式会社 | refrigerator |
CN107228514A (en) * | 2017-03-30 | 2017-10-03 | 常熟市福王制冷器材有限公司 | A kind of vertical-type ice maker and the method using the device ice making |
EP3653968A3 (en) * | 2018-11-16 | 2021-08-04 | LG Electronics Inc. | Home appliance with an ice maker |
US11204194B2 (en) * | 2018-11-16 | 2021-12-21 | Lg Electronics Inc. | Refrigerator |
EP4300020A3 (en) * | 2018-11-16 | 2024-07-24 | LG Electronics Inc. | Home appliance with an ice maker |
JP2020091049A (en) * | 2018-12-03 | 2020-06-11 | 三菱電機株式会社 | Ice making device and refrigerator |
CN115200279A (en) * | 2021-04-12 | 2022-10-18 | 青岛海尔电冰箱有限公司 | Ice storage box |
WO2022218115A1 (en) * | 2021-04-12 | 2022-10-20 | 青岛海尔电冰箱有限公司 | Ice storage box |
CN115200279B (en) * | 2021-04-12 | 2023-10-24 | 青岛海尔电冰箱有限公司 | Ice storage box |
CN115200278B (en) * | 2021-04-12 | 2023-11-14 | 青岛海尔电冰箱有限公司 | ice storage box |
CN115200278A (en) * | 2021-04-12 | 2022-10-18 | 青岛海尔电冰箱有限公司 | Ice bank |
EP4325146A4 (en) * | 2021-04-12 | 2024-10-09 | Qingdao haier refrigerator co ltd | Ice storage box |
CN115451617A (en) * | 2021-06-08 | 2022-12-09 | 青岛海尔电冰箱有限公司 | Ice making control method and ice making device |
CN115451617B (en) * | 2021-06-08 | 2023-08-15 | 青岛海尔电冰箱有限公司 | Ice making control method and ice making device |
WO2022264401A1 (en) * | 2021-06-18 | 2022-12-22 | 三菱電機株式会社 | Refrigerator |
WO2023153585A1 (en) * | 2022-02-10 | 2023-08-17 | 삼성전자주식회사 | Refrigerator |
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